The Single mode Fiber Certifier also features an optical power meter and built-in OTDR for thorough fiber testing. Coupled with software, it enables technicians to create a report showcasing test results from OTDR, End face Analysis, and Link Certification.
The Single mode Fiber Certifier also features an optical power meter and built-in OTDR for thorough fiber testing. Coupled with software, it enables technicians to create a report showcasing test results from OTDR, End face Analysis, and Link Certification.
OWL F7+S Singlemode Tier 2 Fiber Certifier OverviewThe OWL F7+S is a singlemode tier 2 fiber certifier that gives fiber installation technicians the tools needed to certify and prove their work properly. The OWL 7+ fiber certifier will help you win more bids with its comprehensive Tri-Reporting option available. The color LCD screen displays results and a clear PASS/FAIL icon using known standards. Fiber OWL7+ certifiers are small and compact coming in at a third of the size and weight when compared to the competition.
OWL utilizes the beautiful color display by having helpful diagrams that prompt the user to connect the tester to the link as shown. There are also text-based help screens that are available if technicians have questions in the field. Optical Power MeterThe optical power meter included in the F7+S is used for an absolute measurement of the amount of light intensity. This unit is a single-mode power meter using the 850/1300 nm wavelengths.
When used in OPM Mode, the F7+S performs the following basic tests: Transmitter Power Measurement OTDR's are complicated technical devices and require a high technical skill, knowledge, and expertise to operate. OTDR's are built to locate faults or "events" in an optical fiber. The events can include things like breaks, shatters, connector endfaces, patch panels, splices, macro-bends, and micro-bends. OTDR's can detect two types of events that encompass those type of anomalies and they are Fresnel (reflective) and backscatter (non-reflective).
Fresnel events are caused by "glass-to-air" boundaries in the fiber which causes a high amount of light to be reflected back into the OTDR. Intrinsic properties of the optical fiber cause backscatter events. This leads to light scattering in all directions, including back into the OTDR. OWLView SoftwareOne great benefit of the OWL F7+S fiber certifier is the OWLView software. Tri-Reports built by OWLView give customers a full report of the fiber optic install from Endface analysis, OTDR tests, and Link Certification.
Caractéristiques
| Detector Type | InGaAs |
| Wavelengths | 850, 980, 1300, 1310, 1490, 1550, 1625 nm |
| Measurement Range | +5 to -70 dBm |
| Accuracy (Uncertainty) | ± 0.15 dB |
| Display Resolution | 0.01 dB |
| Measurement Units | dBm, dB |
| Connector Type | Universal (2.5 mm and 1.25 mm) |
| Data Storage Points | < 10,000 |
| Download Port Connection | USB |
| Software | OWLView |
| Modes of Operation | PAIR, BIDI, CERT, LOSS, OPM |
| Length Measurement Range | Up to 25 km |
| Length Measurement Accuracy | ± 8.2' (2.5 m) |
| VFL Output Wavelength | 650 nm Laser |
| VFL Output Power | 1 mW |
| VFL Operating Modes | CW, Modulated |
| VFL Operating | 2.5 mm Universal |
| Fiber Type | Singlemode |
| Output Wavelength | 1310 nm, 1550 nm |
| Dynamic Range (SNR = 1) | 28 dB (1310 nm), 27 dB (1550 nm) |
| Distance Range | 80 miles (128 kilometers) |
| Event Dead Zone | 6.56 ft (2 m) typical |
| Attenuation Dead Zone | 16.4 ft (5 m) typical |
| Maximum Data Points | 64000 |
| Data Point Spacing | < 64 km: 3.2' (1 m)> 64 km: 2 meters |
| Pulse Width | 1, 2, 5, 10, 20, 50, 100, 200, 500, 1k meters |
| Index of Refraction | 1.4000 to 1.6000 |
| Distance Accuracy | Up to 64 km: 1 + (distance in meters/10000) Over 64 km: 2 + (distance in meters/10000) |
| Number of Stored Traces | Maximum trace distance: Up to 200 Minimum trace distance: 3000+ |
| Display Type | 2.8" (7.11 cm) Color LCD |
| Battery Type | Lithium Polymer |
| Battery Life | Up To 50 Hours |
| Auto-Shutdown | Yes |
| Operating Temperature | 14 to 131°F (-10 to 55°C) |
| Storage Temperature | -22 to 158°F (-10 to 55°C) |
| Dimensions | 2.87 x 4.42 x 1.25" (7.29 x 11.23 x 3.18 cm) |
| Weight | 10 ounces (284 g) |
| Detector Type | InGaAs |
| Wavelengths | 850, 980, 1300, 1310, 1490, 1550, 1625 nm |
| Measurement Range | +5 to -70 dBm |
| Accuracy (Uncertainty) | ± 0.15 dB |
| Display Resolution | 0.01 dB |
| Measurement Units | dBm, dB |
| Connector Type | Universal (2.5 mm and 1.25 mm) |
| Data Storage Points | < 10,000 |
| Download Port Connection | USB |
| Software | OWLView |
| Modes of Operation | PAIR, BIDI, CERT, LOSS, OPM |
| Length Measurement Range | Up to 25 km |
| Length Measurement Accuracy | ± 8.2' (2.5 m) |
| VFL Output Wavelength | 650 nm Laser |
| VFL Output Power | 1 mW |
| VFL Operating Modes | CW, Modulated |
| VFL Operating | 2.5 mm Universal |
| Fiber Type | Singlemode |
| Output Wavelength | 1310 nm, 1550 nm |
| Dynamic Range (SNR = 1) | 28 dB (1310 nm), 27 dB (1550 nm) |
| Distance Range | 80 miles (128 kilometers) |
| Event Dead Zone | 6.56 ft (2 m) typical |
| Attenuation Dead Zone | 16.4 ft (5 m) typical |
| Maximum Data Points | 64000 |
| Data Point Spacing | < 64 km: 3.2' (1 m)> 64 km: 2 meters |
| Pulse Width | 1, 2, 5, 10, 20, 50, 100, 200, 500, 1k meters |
| Index of Refraction | 1.4000 to 1.6000 |
| Distance Accuracy | Up to 64 km: 1 + (distance in meters/10000) Over 64 km: 2 + (distance in meters/10000) |
| Number of Stored Traces | Maximum trace distance: Up to 200 Minimum trace distance: 3000+ |
| Display Type | 2.8" (7.11 cm) Color LCD |
| Battery Type | Lithium Polymer |
| Battery Life | Up To 50 Hours |
| Auto-Shutdown | Yes |
| Operating Temperature | 14 to 131°F (-10 to 55°C) |
| Storage Temperature | -22 to 158°F (-10 to 55°C) |
| Dimensions | 2.87 x 4.42 x 1.25" (7.29 x 11.23 x 3.18 cm) |
| Weight | 10 ounces (284 g) |
